Method and apparatus for indicating a caller&#39;s intent

ABSTRACT

When a number of users share one telephone number, the present invention indicates who the callee (the person the caller wants to talk to) is, with personalized rings and information shown on a display, so as to allow each user to quickly identify calls directed to him/her. A mobile phone user could inform the callee his/her intent and/or the urgency level of the call by selecting from options provided by the callee reflecting the callee&#39;s preferences.

This application claims the benefit of U.S. Provisional Application No.60/739,549, filed Nov. 23, 2005. The present application incorporates byreference the entire disclosure of that application. This applicationalso claims the benefit of Chinese Patent Application No.200610020860.7, filed May 22, 2006.

BACKGROUND OF THE INVENTION

A. Field of the Invention

The present invention relates to telecommunication, and morespecifically to a CID (Calling Identity Delivery, Caller IdentityInformation) method and apparatus for indicating a caller's intent. Themethod and apparatus of the present invention could be used infixed-line phones, mobile phones and wireless phones or answeringmachines.

B. Description of Related Art

Published Chinese Patent Application No.CN03104516 (Inventor: KojiOkamura) describes a system that presents on a display device caller'sinformation including the caller's name.

Published Chinese Patent Application No.CN01110480 (Inventor: RuiguangWu) describes a microprocessor that compares the caller's phone numberwith phone numbers stored in a memory device. When a phone number storedin the memory device matches the caller's phone number, an audio deviceoutputs identification audio signals corresponding to the stored phonenumber.

The inventions described in these patent applications present to a userthe caller's phone number, calling time, and name or identificationaudio signal when a caller's phone number matches a previously storedphone number. However, if a caller's phone number is not previouslystored, the prior art only displays the caller's phone number andcalling time.

If a family goes out of town for a few days, they may have dozens ofincoming calls waiting for them on their return. Usually, each familymember can only reply to calls from phone numbers with which they arefamiliar, and ignore unfamiliar phone numbers. This not only may causefailure or delay of receipt of important information, but also may causemisunderstanding. In addition, when it is inconvenient for a mobilephone user to answer a phone call immediately, e.g., when he/she issleeping or in a meeting, the prior art system cannot inform the userthat a call is urgent and he/she must answer it immediately.

SUMMARY OF THE INVENTION

The present invention provides a CID method and apparatus forcommunicating a caller's intent, and has successfully overcome theshortcoming of the prior art.

When a number of users share one telephone number, the present inventioncan indicate who the callee (the person the caller wants to talk to) is,and allow each user to quickly look for calls directed to him/her. Inaddition, each user only needs to listen to messages to him/her, and canignore messages to other users.

A mobile phone user could inform the callee his/her intent and/or theurgency level of the call by selecting from options provided by thecallee reflecting the callee's preferences. Icons, codes, vibrationswith at least two different frequencies, and caller phone numbers areclassified to allow the callee to browse through and process the callsquickly and answer the calls according to their urgency level.

The method and apparatus of the present invention could be used infixed-line phones, mobile phones, wireless phones, or answeringmachines.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a caller intent indicating device according to oneembodiment of the present invention.

FIG. 2 illustrates a flow chart of a software program controlling theoperation of the caller intent indicating device according to oneembodiment of the present invention.

FIG. 3 illustrates a callee attribute data structure according to oneembodiment of the present invention.

FIG. 4 illustrates a block diagram of a mobile phone employing themethod for indicating caller's intent according to one embodiment of thepresent invention.

DETAILED DESCRIPTION

The purpose of the invention is achieved by following measures. Forfixed-line telephones, as shown in FIG. 1, a caller intent indicatingdevice 1 includes a microprocessor 11, a recorder 12, a voice interface13, a ring 14, a ringing detecting unit 15, a keyboard 16, a display 17,a memory 18, a microphone 19, and a speaker 1A. The caller intentindicating device is coupled between a telephone 2 and a telephonenetwork.

By key or microphone, each phone (including fixed-line and mobilephones) can set or record callee attribute data reflecting a callee'spreferences.

The voice interface 13 is a gateway for signal transfer between thecaller intent indicating device 1 and the phone 2, and between thecaller intent indicating device 1 and an Exchange in the telephonenetwork. It is the channel for recording and replaying voice signals toand from the device 1. The voice interface 13 transforms signals fromthe telephone line into signals receivable by the recorder 12 and themicroprocessor 11, transforms signals from the recorder 12 and themicroprocessor 11 into signals compatible with the telephone network,and separates the caller intent indicating device 1 and the telephonenetwork to insure their respective circuit safety.

The microprocessor 11 controls the operation of the device 1. Itcontrols the recorder 12 to record and replay greetings-to-caller 34,messages-to-callee 35 and instructions-to-caller 36 shown in FIG. 3; toplay the present, the previous or the next message; and to pause themessage playing. It also controls deletion of present message or allsaved messages.

The microprocessor 11 controls the speaker 1A to outputmessages-to-callee 35 and previously recorded greetings-to-caller 36shown in FIG. 3, and controls the ring 14 to play personalized rings ofthe callee. The microprocessor 11 is a microcontroller designed toprocess voice and music signals. With the help of the 8-bitmicroprocessor and other hardware, the microprocessor 11 can processvoice and music signals in 8 channels simultaneously, and can supportmultiple of voice signal modulation formats, e.g., ADPCM/MDPCM/PCM. Thesampling rates of voice channels are programmable, and the musicchannels could imitate characteristics of musical instruments.

The microprocessor 11 includes a DTMF (Dual-Tone Multi-Frequency) signalgenerator, a watchdog, an 8-bit timer/counter, a ring detection module,a Caller ID control module, etc., and is the control center of the wholecircuit. Signals related to the control of the microprocessor 11 includea reset signal, a battery charging control signal, the ring detectsignal (RDET), data signals, etc.

DTMF uses two different voice frequency signals to represent a number.When a key on the keyboard of a phone is pressed, it sends out a voicesignal mixed from the two voice frequency signals. A DTMF signalgenerator in the microprocessor 11 generates the DTMF signal.

The recorder 12 could record and playback voice signals for a long time.It is controlled by the microprocessor 11, and sends its status back tothe microprocessor. The display 17 shows a caller's phone number, date,time, etc. The display 17 also shows the callee's information, includingcallee's personalized image and code. The display 17 could be an LCD,e.g., a 32.times.4 LCD drive. Data is sent to the display 17 from adisplay buffer. The keyboard 16 receives user inputs for recording,replaying, or deleting audio signals, for ring and display settings, andfor mode settings. The ringing detecting unit 15 sends the ring detectsignal RDET (low level pulses) to a pin of the microprocessor 11. Thememory 18 stores incoming call information and callee attribute data.

All parts of the caller intent indicating device 1 are synchronized by areal time clock, which in one embodiment is a 32.768 kHz crystaloscillator.

The caller intent indicating device 1 could send and receive voice, FSKor DTMF signals etc. Voice signal processing circuits, the ring 14 andthe ringing detecting unit 15 in device 1 comply with Bell 202, andCCITT V. 1200 bps FSK data transmitting standard.

FIG. 2 illustrates a flow chart of a software program for controllingthe operation of the caller intent indicating device according to oneembodiment of the present invention.

The method of the present invention includes following steps.

At 201, ringing signals from a caller are sent to the caller intentindicating device 1. The ringing detecting unit 15 receives the ringingsignals and sends the ring detect signal RDET to the microprocessor 11,notifying the microprocessor 11 that there is an incoming call.

At step 202, the caller intent indicating device 1 imitates an OFF HOOKsignal and answers the call. The caller intent indicating device 1 sendsto the Exchange the imitated OFF HOOK signal. The caller intentindicating device 1 plays previously stored instructions-to-caller 36 bythe recorder 12, sending a list of options to the caller. One example ofthe options is: “For user A, please press 1; for user B, please press 2;,,, for user X, please press n.” The caller presses a key on his/herphone to choose the callee. The caller's input is sent to the callerintent indicating device 1 over the telephone line.

At 203, the caller intent indicating device 1 receives the caller'sinput, and stores the caller's input as a callee's ID code 31 in FIG. 3.According to the callee's ID code 31, the microprocessor 11 looks forthe callee attribute data 3 for this particular callee in a calleeattribute data structure 3 shown in FIG. 3.

At 204, 205, 206, and 207, the microprocessor 11 controls the ring 14 toplay rings according to callee's ring settings 32, and control thedisplay 17 to show callee's identification information according tocallee's display settings 33. As discussed below with reference to FIG.3, callee's ring settings 32 and callee's display settings 33 arepreviously set by the callee.

At 208, if the callee picks up the phone before the number of ringsreach a predetermined number, the caller and the callee can starttalking to each other at 209. If at 208, the call is not answered beforethe number of rings reaches the predetermine number, the device 1 playsa greeting-to-caller 34 and a beep sound at 210, asking the caller toleave a message.

At 211, 212, and 213, the recorder 12 receives and records themessage-to-callee 35.

FIG. 3 illustrates the structure of callee attribute data according toone embodiment of the present invention.

The caller intent indicating device 1 maintenances a callee attributedata for each of a number of callees. The callee attribute data 3includes: callee's ID code 31 (e.g., name, urgency level of the call, ordepartment), callee's ring settings 32 (e.g., ring tones, music,vibrations at different frequencies or voice), callee's display settings33 (e.g., icon, text, code, picture or cartoon), instructions-to-caller36, message-to-callee 35, a greeting-to-caller 34, and incoming callinformation (e.g., data, time). The callee attribute data 3 is stored inthe memory 18. It should be understood that the voice signals of theinstructions-to-caller 36, message-to-callee 35, and greeting-to-caller34 could be stored at the recorder 12, with a code representing themessage or instructions saved at the memory 18.

In one embodiment, the attribute data of one callee is stored as onedata record, separated from attribute data of other callees, so it isconvenient for users to personalize the settings. For example, a usercould conveniently record and play personalized greeting-to-caller 34,instructions-to-caller 36, callee's ring settings 32, and callee'sdisplay settings 33.

Personalized display includes but not limited to code, icon , image,picture, or cartoon. Personalized rings include but not limit to music,voice, chirps, vibrations at various frequencies, or the combinationthereof. Different combinations of length and rhythm of the ringingsignals may represent the urgency level or subject of the call. Forexample, when the call is urgent, the caller may select a high frequencyvibration. Different personalized images and ringing signals are used toindicate the caller's intent, so that the callee can be informed.

Two embodiments of the present invention are described below.

1. A Fixed-Line Phone

One method for indicating the caller intent is used with a fixed-linephone, and includes the following steps.

The originating Exchange sends the caller's phone number and otherinformation to the caller intent indicating device 1 through theInterexchange Signaling System.

The destination Exchange sends the caller's identification informationto the caller intent indicating device 1 by FSK(Frequency Shift Keying).Specifically, the destination Exchange sends logic “1”=1200.+−0.12 Hz ,“0”=2200.+−0.22 Hz, 1200 bps baud rate FSK signal to the voice interface13, which transforms the received signal to a signal suitable for beingprocessed by the microprocessor 11. The microprocessor 11 thendemodulates the signal into a serial asynchronous binary data.

The microprocessor 11 stores the incoming call information, includingthe caller identification information and the calling time, in thememory 18.

The microprocessor 11 has three states: power down, idle and normaloperation. Usually the microprocessor 11 is in the power down state, andthe power consumption is very low. When a first ring comes in, themicroprocessor 11 enters into the normal operation state. Between thefirst and second ring, the microprocessor 11 demodulates the binaryincoming call information. The microprocessor 11 receives and stores theincoming call information and displays it on the LCD 17, then themicroprocessor 11 enters into the idle state. If there is no input formore than a predetermined period of time, e.g., 1 minute, from thebeginning of the idle state, the microprocessor 11 will enter into thepower down state.

When there is an incoming call, the microprocessor 11 starts to receiveand store the incoming call information. The microprocessor 11 receivesthe ringing signal, sends to the caller an imitated OFF HOOK signal, andplays previously recorded instructions-to-caller 36, asking the callerto make a choice according to his/her intent. One example of theinstructions-to-caller 36 is: “For user A, please press 1; for user B,please press 2; ,,, for user X, please press n.” The microprocessor 11then waits for a DTMF signals from the caller.

After detecting the DTMF signal “1,2,3,4 . . . ” from the callerindicating the caller's intent, the microprocessor 11 uses the receivedDTMF signal as the callee's ID code 31 to search the callee attributedata and selects a ring signal according to the callee's ring settings.The microprocessor 11 controls the ring 14 to play the selected ringsignal, and the counter in the microprocessor 11 starts to count thenumber of the rings. The caller intent information “X-CID” is displayedon the LCD 17, wherein “X” represents the callee's identificationinformation, and “CID” is the Caller ID information, which could be thecaller's phone number or name. If the number of rings is smaller than apreset number, e.g., 6 or 12 or 18, then the microprocessor continues towait for an OFF HOOK signal. If the callee picks up the phone, themicroprocessor 11 turns on the voice interface 13. The voice signal fromthe telephone line enters into the telephone, and the caller and calleecould talk to each other.

If the number of rings is bigger than the preset number, themicroprocessor 11 plays a previously stored greeting-to-caller 34,asking to caller to leave a message, and then enters the automaticmessage recording state. The message is recorded as a message-to-callee35.

With the hardware shown in FIG. 1, the flow chart shown in FIG. 2, andthe callee attribute data structure shown in FIG. 3, the presentinvention has effectively solved the problems of the prior art.

Briefly, when a caller dials a phone number, the microprocessor 11 ofthe caller intent indicating device 1 associated with the phone numberreceives the ringing signal, imitates an OFF HOOK signal, plays apreviously recorded instructions-to-caller 36 to ask the caller toselect from a list of options, and then waits for the DTMF signal. Theinstructions-to-caller could be, for example: “For user A, please press1; for user B, please press 2; ,,, for user X, please press n.” Thecaller will then press a key on his/her phone to select the callee.After detecting the DTMF signal “1,2,3,4 . . . ” from the caller, themicroprocessor 11 searches the callee attribute data shown in FIG. 3 fora callee matching the caller's input. For example, when the callee is A,the microprocessor 11 selects from a number of ring signals previouslystored in a ROM the ring tone or vibration frequency corresponding tothe ring setting 32 of user A. The microprocessor 11 also selects adisplay signal corresponding to the display settings of user A. Themicroprocessor 11 then control the ring 14 to output the selected ringsignal. Meanwhile, the microprocessor controls the display 17 to show“X-CID”. “X” represents the identification information of user A, itcould be a number, or an icon or a picture or a few words previouslystored by the user A. The information about the incoming call is thenreceived and stored. If the call is not answered within a predeterminednumber of rings, the microprocessor 11 controls the recorder 12 to playthe greeting-to-caller 34 previously stored by the user A and records amessage from the caller.

Thus, the caller intent indicating device 1 not only stores and displaysinformation about incoming calls, but also displays information of thecallee, plays the callee's greeting-to-caller 34, and stores informationof incoming calls and message-to-callee 35 for each callee. Whenbrowsing through the stored incoming call information and messages, auser of the telephone does not have to go through incoming callinformation and messages directed to other users in detail.

2. Mobile Phone

FIG. 4 shows a block diagram of a mobile phone employing the method forindicating caller's intent according to one embodiment of the presentinvention.

A mobile phone 4 mainly includes an RF unit 41, a voice frequency unit42, a logic control unit 43, and an RF power supply unit 44. Wirelesstelecommunication is carried out between the mobile phone 4 and a basestation via high frequency modulation signal. The callee attribute datastructure stored in an EEPROM of the mobile phone 4 is shown in FIG. 3.The software program for controlling the caller intent indicatingprocess stored in a FLASH is shown in FIG. 2.

The Radio Frequency unit 41 includes a receiver, a transmitter, afrequency synthesizer, an antenna, etc. The receiver down converts thefrequency of the RF signal, and outputs a 67.707 KHZ base band signal(RXI, RXQ). Through TXI/Q (Cophase/quadrature) modulation, thetransmitter starts at a higher frequency. It converts a 67.707 KHZanalog base band signal up to an 880 MHZ-915 MHZ (GSM900 band), or a1710 MHZ-1785 MHZ (DCS1800 band) transmission signal. The signal istransmitted from the antenna after amplification. The frequencysynthesizer supplies the base and carrier frequency to a frequency Mixerin the receiver and a modulation circuit in the transmitterrespectively. The frequency synthesizer is controlled by the CPU of thelogic control unit 43 and the voice frequency unit 42, and switchesbetween frequencies automatically.

The logic control unit 43 and voice frequency unit 42 are controlled bythe CPU to process and transmit voice signals.

The voice frequency unit 42 is divided into a receiving voice frequencysignal processing branch and a transmitting voice frequency signalprocessing branch, and includes a modem(or DSP), a voice Coder/Decoder,and a PCM Coder/Decoder.

While the mobile phone is receiving a signal, the receiving branchdemodulates (GMSK) the analog base band signal from the RF unit (A/Dconversion), and decrypts the signal. A 13 Kb/s data flow is obtainedafter channel decoding, and a 64 Kb/s digital signal is obtained aftervoice decoding. An analogue voice signal obtained after PCM decoding issent to a speaker.

While the mobile phone is transmitting a signal, analog signal from amicrophone is converted to 64 Kb/s digital signal via PCM coding. A67.707 kHz analog base-band signal, obtained after voice coding, PCMcoding, encrypting, interweaving, and GMSK modulation, is sent tomodulation circuit of the RF unit for radio frequency transformation.

The logic control unit 43 controls the operation of each part of themobile phone, including, the RF unit, the voice frequency unit, thekeyboard, the display, etc. The logic control unit 43 includes a CPU,memories, buses, etc.

There are two types of memory: data memory and program memory. Datamemory, namely Static Random Access Memory (SRAM), is used as databuffer area to store intermediate data generated during programexecution. Data stored in the data memory will be lost if the mobilephone is powered off. Program memory mainly contains two parts:Electrically Erasable Programmable Read-only Memory (EEPROM) and flashread only memory (FLASHROM). FLASHROM is used to store the basic programand all kinds function program of the mobile telephone, including theprogram shown in FIG. 2. It also stores font library and other types ofdata.

EEPROM has system control instructions and other data originally storedin the factory. The stored data could be automatically refreshed duringoperation of the mobile phone. A user could change the stored data viathe keyboard too. EEPROM stores the menu for setting parameters of themobile phone. In other words, the EEPROM stores some rewritable programparameters. Moreover, EEPROM stores the callee attribute data shown inFIG. 3, including: the callee's ID code 31 (e.g., name of the callee,urgency level, the department the callee works for, etc.), callee's ringsettings 32 (e.g., ring tone, music, vibrations at various frequencies,and voice), callee's display settings 33 (e.g., text, code, image, icon,and picture), a message-to-caller 34, messages-to-callee 35,instructions-to-caller 36, information about the incoming calls 37,phonebook, IMEI number, phone lock code, parameters set by the user, andother user information and internal information of the mobile phone.

CPU controls the voice frequency unit and RF unit via control buses. Thecontrol signals include MUTE, LCDEN (LCD enable), LIGHT (light control),CHARGE (battery charging control), AFC (automatic frequency control),RXEN (reception enable), TxEN (transmission enable), SYNDAT (FrequencySynthesizer Channel data), SYNEN (Frequency Synthesizer enable), SYNCLK(Frequency Synthesizer clock), etc. These control signals are sent fromthe CPU to the voice frequency unit 42 and the RF unit 43 to control theoperation of various parts and circuits therein.

Clock signals are provided to the logic control unit 43 and the CPUtherein, and to the RF unit 41 and the frequency synthesizer therein. ARF unit clock provides a reference frequency to the frequencysynthesizer. Operation of the whole system is synchronized by the clocksignals.

When a mobile phone 4 is receiving a signal, the signal from a basestation is received by an antenna. The received signal is processed bythe RF receiving circuit 41, the logic control unit 43 and the voicefrequency unit 42, and then is sent to a speaker.

When the mobile phone 4 is transmitting a signal, an audio signal ischanged to an electrical signal by a microphone. The electrical signalis processed by the logic control unit 43, the voice frequency unit 42,and the radio frequency unit 41. The radio frequency signal is then sentto a base station via the antenna.

When a ringing signal is sent to the mobile phone 4, the mobile phoneimitates an OFF HOOK signal and returns the imitated OFF HOOK signal tothe caller. The mobile phone imitates answering the incoming call, butdoes not ring.

The mobile phone searches the callee attribute data shown in FIG. 3, andplays instructions-to-caller 36 to ask the caller to press a key. Theinstructions-to-caller 36 could be, for example: “Hello, I am in ameeting right now. If you need me to answer the call immediately, pleasepress 1. If you can wait until I finish the meeting, please press 2. Ifyou want to leave a message, please press 3. Thank you.”

The caller presses a key according to his/her intent. The caller's inputis then sent to the mobile phone. After receiving the input from thecaller, the mobile telephone 4 saves the caller's selection as a part ofthe Callee's ID code 31. In response to the caller's input kept in thecallee's ID code 31, the mobile phone 4 searches the callee attributedata shown in FIG. 3, specifically the callee's ring settings 32 (ringtones, music, vibrations at various frequencies or voice signals),callee's display settings 33 (text, code, image, icon, or picture),associated with the caller's selection, and sets the display and thering accordingly.

For example: when the caller presses 1, the mobile phone 4 will set offshort and quick rings or vibration, and emit red LED flashlight, urgingthe callee to answer the phone immediately. If the caller presses 2, themobile phone 4 will set off long and slow rings or vibrations, and emityellow LED flashlight, prompting the callee to answer the call aftermeeting. If caller presses 3, the mobile phone 4 will generate regularrings or vibrations, and emit blue LED flashlight, informing the calleethat a message is being received. Minor hardware changes need to be madeto the vibration unit so that it can vibrate at various frequencies, andto the LED flashlight of the mobile phone so that it can emit flashlightin different colors.

According to the ring signals and LED flashlight, the callee can respondto the call in three ways: (1) If the caller has an urgent matter andintends to talk to the callee immediately, the callee answers the callafter several rings or vibrations; (2) If the caller can wait, thecallee will not answer the call until the meeting is over; (3) If thecaller wants to leave a message, then the mobile phone 4 will send outthe greeting-to-caller 34, prompting the caller to leave a message. Thecaller's message is sent to the mobile phone 4, which stores the messageas a message-to-callee 35. The callee could browse the incoming callsand stored message-to-callee 35.

In short, the present invention has effectively solved problems of theprior art, and provides convenience to family members, and officeworkers who share a phone number with others. It also helps mobile phoneusers to handle incoming calls according to their urgency level.

While the present invention has been described with reference to thecertain embodiments, the invention should not be construed as limited tothese embodiments. It shall be understood that all aspects of thepresent invention are not limited to the specific depictions,configurations or dimensions set forth herein which depend upon avariety of principles and variables. Various modifications in form anddetail of the disclosed method and apparatus, as well as othervariations of the present invention, will be apparent to a personskilled in the art upon reference to the present disclosure. It istherefore contemplated that the appended claims shall cover any suchmodifications or variations of the described embodiments as fallingwithin the true spirit and scope of the present invention.

1-26. (canceled)
 27. A mobile telephone, comprising: a display; an audiodevice; memory, the memory being configured to storeinstructions-to-caller; a processor in communication with the memory,the display and the audio device, the processor being configured to:selectively play the instructions-to-caller upon receipt of a telephonecall from a caller, the instructions-to-caller being configured toenable the caller to select at least one of a plurality of choices basedon an intent of the caller; receive at least one selection, by thecaller, of at least one of the plurality of choices communicated to thecaller by the instructions-to-caller; and access pre-stored calleeattribute data reflective of preferences of a callee and selectivelyactuate at least one of the display and the audio device based upon theaccessed callee attribute data and the intent of the caller indicated bythe at least one selection.
 28. The mobile telephone of claim 27,further comprising a light and wherein the processor is furtherconfigured to selectively actuate at least one of the display, thelight, and the audio device based upon the accessed callee attributedata and the intent of the caller indicated by the at least oneselection.
 29. The mobile telephone of claim 28, wherein the processoris further configured to cause the light to emit different colorsdepending at least upon the intent of the caller.
 30. The mobiletelephone of claim 27, wherein the callee attribute data comprises atleast one of the instructions-to-caller, a callee's ID code, amessage-to-callee, a greeting-to-caller, and incoming call information.31. The mobile telephone of claim 27, wherein the callee attribute datacomprises settings enabling the audio device to output a selected atleast one of a voice, ring tones, music, and vibrations at differentfrequencies.
 32. The mobile telephone of claim 27, wherein the processoris further configured to selectively actuate at least one of the displayand the audio device according to the accessed callee attribute data andat least one of an urgency of the telephone call, a name of the caller,a department of the callee, the intent of the caller, a name of thecallee, a callee ID code, and received caller ID information, at leastsome of which being communicated to the callee by the at least oneselection by the caller.
 33. The mobile telephone of claim 27, whereinthe processor is further configured to classify incoming telephone callsaccording to at least one of the accessed callee attribute data and theat least one selection by the caller, and to enable the callee to browsethrough missed calls and messages-to-callee based on thisclassification.
 34. The mobile telephone of claim 27, wherein theprocessor is further configured to classify at least one of telephonecalls and missed calls according to at least one of the accessed calleeattribute data, received caller ID information, and the at least oneselection by the caller.
 35. The mobile telephone of claim 27, whereinthe callee attribute data comprises settings enabling the display todisplay a selected at least one of an icon, text, code, picture, andcartoon.
 36. The mobile telephone of claim 27, wherein the processor isfurther configured to cause the display to display the selected at leastone of an icon, text, code, picture, and cartoon according to at leastone of: the intent of the caller as communicated by the at least oneselection by the caller, and the accessed callee attribute data.
 37. Themobile telephone of claim 27, wherein the instructions-to-caller enablethe caller to select at least one of the plurality of choices dependingupon an urgency of the telephone call.
 38. The mobile telephone of claim27, wherein the at least one selection by the caller is communicated toa callee via at least one of the display and the audio device.
 39. Themobile telephone of claim 38, wherein the processor is furtherconfigured to store the at least one selection by the caller in thememory.
 40. The mobile telephone of claim 27, wherein the processor isfurther configured, when a callee does not answer the telephone call, toselect and play a greeting to caller according to the accessed calleeattribute data and at least one of: the at least one selection by thecaller; and caller ID information.
 41. The mobile telephone of claim 27,wherein the processor is further configured to accept at least one ofvoice or keyed-in instructions to set up at least one of theinstructions-to-caller, the plurality of choices, and the calleeattribute data.
 42. The mobile telephone of claim 27, wherein theselectively actuated at least one of the display and the audio devicebased upon the at least one selection by the caller and the accessedcallee attribute data enable the mobile telephone to communicate theintent of the caller before the telephone call is answered.
 43. Themobile telephone of claim 27, wherein a manner in which the at least oneof the display and the audio device are actuated enables the callee todecide whether to answer the telephone call or not.
 44. A non-volatilememory for a mobile device comprising a display, an audio device and aprocessor, the non-volatile memory being configured to store controlinstructions that, when executed, configure the processor to: playinstructions-to-caller upon receipt of a call to the mobile device froma caller, the instructions-to-caller being configured to enable thecaller to select at least one of a plurality of choices based on anintent of the caller; receive and store in a memory at least oneselection by the caller, the at least one selection comprising at leastone of the plurality of choices communicated to the caller by theinstructions-to-caller; and access pre-stored callee attribute datareflective of preferences of a callee and cause a selective actuation ofat least one of the display and the audio device based upon the accessedcallee attribute data and the intent of the caller as indicated by theat least one selection.
 45. The non-volatile memory of claim 44, whereinthe mobile device further comprises a light and wherein the controlinstructions further configure the processor to selectively actuate atleast one of the display, the light, and the audio device based upon theaccessed callee attribute data and the intent of the caller indicated bythe at least one selection.
 46. The non-volatile memory of claim 45,wherein the control instructions further configured the processor tocause the light to emit different colors depending at least upon theintent of the caller.
 47. The non-volatile memory of claim 44, whereinthe callee attribute data comprises at least one of theinstructions-to-caller, a callee's ID code, a message-to-callee, agreeting-to-caller, and incoming call information.
 48. The non-volatilememory of claim 44, wherein the callee attribute data comprises settingsenabling the audio device to output a selected at least one of ringtones, music, vibrations at different frequencies, and voice.
 49. Thenon-volatile memory of claim 44, wherein the control instructionsfurther configure the processor to actuate at least one of the displayand the audio device according to the accessed callee attribute data andat least one of an urgency of the telephone call, a name of the caller,a department of the callee, the intent of the caller, a name of thecallee, a callee ID code, and received caller ID information, at leastsome of which being communicated to the callee by the at least oneselection by the caller.
 50. The non-volatile memory of claim 44,wherein the control instructions further configure the processor toclassify incoming calls according to at least one of the accessed calleeattribute data and the at least one selection by the caller, therebyenabling the callee to browse through missed calls andmessages-to-callee based on this classification.
 51. The non-volatilememory of claim 50, wherein the control instructions further configurethe processor to classify at least one of telephone calls and missedcalls according to at least one of the accessed callee attribute data,received caller ID information, and the at least one selection by thecaller.
 52. The non-volatile memory of claim 44, wherein the calleeattribute data comprises settings enabling the display to display aselected at least one of an icon, text, code, picture, and cartoon. 53.The non-volatile memory of claim 44, wherein the control instructionsfurther configure the processor to cause the display to display theselected at least one of an icon, text, code, picture, and cartoonaccording to at least one of: the intent of the caller as communicatedby the at least one selection by the caller, and the accessed calleeattribute data.
 54. The non-volatile memory of claim 44, wherein theplayed instructions-to-caller enable the caller to select and the mobiledevice to receive and store at least one of the plurality of choicesdepending upon an urgency of the call.
 55. The non-volatile memory ofclaim 44, wherein the control instructions further configure theprocessor to communicate the at least one selection to a callee via atleast one of the display and the audio device.
 56. The non-volatilememory of claim 55, wherein the control instructions further configurethe processor to store the at least one selection by the caller in thememory.
 57. The non-volatile memory of claim 44, wherein the controlinstructions further configure the processor, when a callee does notanswer the call, to select and play a stored greeting to calleraccording to the accessed callee attribute data and at least one of: theat least one selection; and caller ID information.
 58. The non-volatilememory of claim 44, wherein the control instructions further configurethe processor to accept at least one of voice or keyed-in instructionsto set up at least the instructions-to-caller, the plurality of choices,and the callee attribute data.
 59. The non-volatile memory of claim 44,wherein the selectively actuated at least one of the display and theaudio device based upon the selection by the caller and the accessedcallee attribute data enable the mobile device to communicate the intentof the caller before the call is answered.
 60. The non-volatile memoryof claim 44, wherein the control instructions configure the processor toactuate the at least one of the display and the audio device in a mannerthat enables the callee to decide whether to answer the call or not. 61.A method implemented by a callee's mobile device comprising a display,an audio device and a processor, the method comprising: playinginstructions-to-caller upon receipt of a call to the mobile device froma caller, the instructions-to-caller being configured to enable thecaller to select at least one of a plurality of choices based on anintent of the caller; receiving and storing in a memory at least oneselection by the caller, the at least one selection comprising at leastone of the plurality of choices communicated to the caller by theinstructions-to-caller; and accessing pre-stored callee attribute datareflective of preferences of a callee and selectively actuating at leastone of the display and the audio device based upon the accessed calleeattribute data and the intent of the caller indicated by the at leastone selection.